There are a lot of smartphones on the market Best Processor for Mobile Phone Ranking List, and almost all of them use different chipsets. The performance of each chipset is important for any smartphone because it affects how the user feels and has a long-term effect.
So, if you want to buy a smartphone with the right SoC, check out our list of the best processors for mobile phones.
Every year, a number of new mobile processors make their way into the smartphone market. Each one is different, and each is the best mobile processor. But there is a thin line between Best Processor for Mobile Phone Ranking List and what it can’t do.
One can give you a better gaming experience, the other a good camera experience, and some can give you a great experience all around. In this article, we’ve found the best mobile processor and made a list of the best mobile processors. This will help you figure out quickly which phone has the best processor so you can choose your next phone.
What is a Processor or CPU?
In technical terms, a processor is an electronic circuit that takes care of the device’s instructions. It has multiple logic gates, an arithmetic logic unit, combination logic, main memory, and input/output (IO). But the mobile processors of today have different processing threads, such as an AI Engine and an image signal processor.
These processors are made to meet the needs of someone who uses a smartphone. They are set up to handle computation tasks, voice calls, image creation, camera calibration, and cellular networking. System-on-Chip is what we call today’s mobile processors because they are the smart mobile processors of the next generation (SoC). But these SoCs are so complicated that they need extra testing, called benchmarking, to find out where the most important improvements in processor performance are.
So, what is benchmarking?
Benchmarking is an industry-wide method for figuring out how well an SoC is doing based on certain matrices. These matrices are just a score given to the SoC after they have been tested and passed. The test can look at things like how well the SoC handles games, how well it uses the battery, and how well the CPU works overall. In a nutshell, SoCs are tested to see how well they can compute.
At the moment, the Apple A14 Bionic is the best mobile processor. It is the same chip that runs the new Apple iPad and iPhone 12 series.
Read more: Best Apple Black Friday Deals 2022— and Everything You Need to Know
Best Processor for Mobile Phone Ranking List 2022
So, if you’re looking for a list of the best mobile processors, we’ve put together a list of 162 mobile processors with their ranking and benchmark scores from different benchmarking websites. The best Processor for Mobile Phone Ranking List will help you find the best smartphone processor and make a smart decision about what to buy.
Rank | Processor Name | Phone | Centurion Mark | AnTuTu 8 | GeekBench 5* |
#1 | Apple A15 Bionic | Apple iPhone 13 | 801199 | 1722 / 4685 | |
#2 | Dimensity 9000 | Vivo X80 | 1,049,081 | 1179/4189 | |
#3 | Snapdragon 8 Gen 1 | OnePlus 10 Pro | 1,029,556 | 1259/4189 | |
#4 | Apple A14 Bionic | Apple iPhone 12 | 165 | 611843 | 1613 / 3909 |
#5 | Snapdragon 888 Plus | Asus ROG Phone 5S | 863552 | 1160 / 2834 | |
#6 | Exynos 2200 | Samsung Galaxy S22 Ultra | 965,874 | 934/2925 | |
#7 | Snapdragon 888 | OnePlus 9 | 158 | 722907 | 1140 / 3745 |
#8 | Dimensity 8100 | Realme GT Neo 3 | 809443 | 1003/2607 | |
#9 | Exynos 2100 | Samsung Galaxy S21 | 156 | 698965 | 1085 / 3654 |
#10 | Google Tensor | Google Pixel 6 Pro | 676789 | 1056 / 2855 | |
#11 | Apple A13 Bionic | Apple iPhone 11 | 154 | 524846 | 1345 / 3568 |
#12 | Kirin 9000 | Huawei Mate 40 Pro | 152 | 698795 | 1067 / 3764 |
#13 | Kirin 9000E | Huawei Mate 40 | 151 | 633255 | 1077 / 3772 |
#14 | Exynos 1080 | Vivo X60 Pro | 151 | 637232 | 850 / 2989 |
#15 | Snapdragon 870 | Xiaomi Poco F3 | 151 | 647509 | 1010 / 3423 |
#16 | Snapdragon 865+ | Asus ROG Phone 3 | 150 | 620268 | 926 / 3342 |
#17 | Dimensity 1200 | 150* | 625102 | 939 / 3367 | |
#18 | Snapdragon 865 | OnePlus 8 | 149 | 597297 | 944 / 3454 |
#19 | Dimensity 1100 | Vivo S9 | 149 | 612309 | 866 / 3487 |
#20 | Snapdragon 780G | Xiaomi Mi 11 Lite 5G | 147 | 512084 | 813 / 2926 |
#21 | Dimensity 1000+ | Xiaomi Redmi K30 Ultra | 146 | 486043 | 804 / 2808 |
#22 | Apple A12 Bionic | iPhone XS Max | 146 | 401359 | 1139 / 2944 |
#23 | Dimensity 1000 | 146* | 511357 | 811 / 3084 | |
#24 | Snapdragon 855+ | Asus ROG Phone II | 145 | 488150 | 792 / 2816 |
#25 | Snapdragon 860 | POCO X3 Pro | 145 | 461385 | 750 / 2582 |
#26 | Exynos 990 | Samsung Galaxy S20 Ultra | 144 | 532769 | 939 / 2772 |
#27 | Snapdragon 778G Plus | Motorola Edge 30 | 821/2353 | ||
#28 | Snapdragon 855 | OnePlus 7 Pro | 144 | 433903 | 755 / 2640 |
#29 | Snapdragon 778G | Realme GT Master Edition | 539766 | 785/2872 | |
#30 | Kirin 990 5G | Huawei Mate 30 Pro 5G | 144 | 505723 | 782 / 3097 |
#31 | Kirin 990 4G | Huawei Mate 30 Pro 4G | 143 | ||
#32 | Kirin 990E 5G | Huawei Mate 30E Pro 5G | 143 | 433,894 | 765/3089 |
#33 | Exynos 9825 | Galaxy Note 10+ | 142 | 455130 | 774 / 2434 |
#34 | Exynos 9820 | Samsung Galaxy S10 | 140 | 392201 | 851 / 2307 |
#35 | Dimensity 1000L | Oppo Reno3 5G | 140 | 342107 | 313 / 1380 |
#36 | Kirin 985 5G | Huawei Honor 30 | 139 | 421071 | 691 / 2612 |
#37 | Kirin 980 | Huawei Mate 20 Pro | 137 | 404883 | 709 / 2488 |
#38 | Dimensity 1000C | T-Mobile LG Velvet 5G | 137 | ||
#39 | Snapdragon 768G | Redmi K30 5G Racing | 136 | 350914 | 704 / 2031 |
#40 | Dimensity 820 | Redmi 10X Pro 5G | 136 | 410416 | 661 / 2677 |
#41 | Exynos 980 | Samsung Galaxy A71 5G | 135 | 337721 | 706 / 1864 |
#42 | Snapdragon 765G | Oppo Reno 3 Vitality | 134 | 318917 | 598 / 1829 |
#43 | Dimensity 800U | Xiaomi Redmi Note 9T | 134 | 326476 | 626 / 1931 |
#44 | Exynos 880 | Vivo Y70s | 134 | 292377 | 659 / 1833 |
#45 | Snapdragon 765 | Motorola One 5G | 133 | 290380 | 482 / 1818 |
#46 | Dimensity 800 | Honor Play 4 | 133 | 321253 | 554 / 2220 |
#47 | Snapdragon 750G | Motorola Moto G 5G | 132 | 332300 | 667 / 1999 |
#48 | Snapdragon 690 | OnePlus Nord N10 5G | 131 | 291148 | 613 / 1859 |
#49 | Dimensity 720 | Realme v3 | 131 | 293743 | 524 / 1687 |
#50 | Dimensity 700 | Realme 8 5G | 131 | 293419 | 540 / 1717 |
#51 | Apple A11 Bionic | iPhone X | 130 | 316524 | 926 / 2362 |
#52 | Snapdragon 695 | OnePlus Nord CE 2 Lite 5G | 406,221 | 690/1742 | |
#53 | Snapdragon 845 | OnePlus 6T | 127 | 362476 | 515 / 2221 |
#54 | Exynos 9810 | Samsung Galaxy Note 9 | 125 | 321500 | 693 / 2040 |
#55 | Snapdragon 732G | Poco X3 | 125 | 282502 | 576 / 1811 |
#56 | Snapdragon 730G | Oppo Reno 2 | 124 | 282999 | 545 / 1748 |
#57 | Kirin 810 | Honor 9X | 124 | 323660 | 622 / 2040 |
#58 | Snapdragon 730 | Redmi K20 | 123 | 255340 | 545 / 1778 |
#59 | Snapdragon 720G | Realme 6 Pro | 123 | 277832 | 572 / 1707 |
#60 | Snapdragon 480 | Vivo Y31s | 122 | 262534 | 520 / 1666 |
#61 | Kirin 970 | Huawei Mate 10 Pro | 121 | 239440 | 391 / 1375 |
#62 | Helio G95 | Realme 7 | 120 | 300476 | 521 / 1608 |
#63 | Helio G90T | Redmi Note 8 Pro | 119 | 285824 | 497 / 1627 |
#64 | Apple A10 Fusion | iPhone 7 Plus | 118 | 253993 | 780 / 1419 |
#65 | Helio G90 | 118* | 226901 | 517 / 1642 | |
#66 | Snapdragon 835 | Google Pixel 2 XL | 117 | 280101 | 390 / 1720 |
#67 | Exynos 8895 | Samsung Galaxy S8+ | 114 | 176078 | 384 / 1577 |
#68 | Snapdragon 712 | Vivo Z5 | 114 | 225485 | 409 / 1528 |
#69 | Snapdragon 710 | Xiaomi Mi 8 SE | 113 | 221286 | 396 / 1469 |
#70 | Snapdragon 678 | Xiaomi Redmi Note 10 | 113 | 236291 | 520 / 1492 |
#71 | Snapdragon 675 | Redmi Note 7 Pro | 112 | 205121 | 426 / 1386 |
#72 | Snapdragon 670 | Oppo R17 | 111 | 180984 | 351 / 1347 |
#73 | Helio P95 | Oppo Reno 3 Pro 4G | 111 | 212556 | 403 / 1526 |
#74 | Helio P90 | OPPO Reno Z | 110 | 223312 | 397 / 1510 |
#75 | Helio X30 | Meizu Pro 7 Plus | 109 | ||
#76 | Apple A9 | iPhone 6S Plus | 109 | 172432 | 546 / 1002 |
#77 | Snapdragon 821 | OnePlus 3T | 108 | 177166 | 343 / 754 |
#78 | Snapdragon 820 | LG G5 | 107 | 168540 | 325 / 808 |
#79 | Helio G85 | Redmi Note 9 | 107 | 195603 | 357 / 1268 |
#80 | Exynos 8890 | Samsung Galaxy S7 Edge | 106 | 178154 | 375 / 1328 |
#81 | Helio G80 | Redmi 9 | 106 | 203829 | 354 / 1311 |
#82 | Helio G70 | Realme C3 | 105 | 196533 | 360 / 1279 |
#83 | Helio P65 | Vivo S1 | 105 | 187252 | 352 / 1283 |
#84 | Kirin 960 | Huawei Mate 9 Pro | 103 | 209909 | 384 / 1590 |
#85 | Exynos 9611 | Samsung Galaxy M30s | 103 | 184673 | 331 / 1218 |
#86 | Exynos 9610 | Samsung A50 | 102 | 170293 | 341 / 1152 |
#87 | Snapdragon 660 | Xiaomi Mi A2 | 101 | 156817 | 338 / 1334 |
#88 | Exynos 9609 | Moto One Vision | 101 | 188890 | 330 / 1259 |
#89 | Snapdragon 665 | Redmi Note 8 | 101 | 177906 | 318 / 1370 |
#90 | Snapdragon 662 | Moto G9 | 101 | 180011 | 316 / 1402 |
#91 | Helio P70 | Realme U1 | 99 | 190509 | 302 / 1413 |
#92 | Snapdragon 460 | Moto E7 Plus | 99 | 148603 | 260 / 1170 |
#93 | Helio P60 | Realme 1 | 98 | 170400 | 275 / 1127 |
#94 | Exynos 7885 | Samsung Galaxy A7 (2018) | 98 | 139221 | 325 / 1054 |
#95 | Kirin 710 | Huawei Honor 8X | 98 | 165666 | 336 / 1212 |
#96 | Snapdragon 636 | Nokia X6 | 97 | 147325 | 277 / 1140 |
#97 | Exynos 7904 | Galaxy M20 | 96 | 118420 | 275 / 1022 |
#98 | Exynos 850 | Samsung Galaxy A21s | 96 | 127031 | 163 / 955 |
#99 | Snapdragon 632 | Meizu Note 8 | 92 | 122024 | 265 / 1050 |
#100 | Exynos 7884 | Samsung Galaxy A20 | 92 | 110792 | 249 / 907 |
#101 | Exynos 7884A | Samsung Galaxy J3 Orbit | 91 | ||
#102 | Kirin 955 | Huawei Honor V8 | 89 | 119699 | 347 / 1095 |
#103 | Snapdragon 630 | Motorola Moto X4 | 88 | 118444 | 177 / 990 |
#104 | Kirin 950 | Huawei Mate 8 | 88 | 172119 | 340 / 1285 |
#105 | Exynos 7872 | Meizu M6s | 87 | ||
#106 | Helio X27 | UMIDIGI Z Pro | 85 | ||
#107 | Exynos 7420 | Samsung Galaxy S6 Edge | 81 | 114789 | 260 / 893 |
#108 | Helio P35 | Infinix Note 6 | 81 | 99148 | 172 / 974 |
#109 | Helio G35 | Realme C11 | 81 | 110685 | 177 / 997 |
#110 | Snapdragon 810 | OnePlus 2 | 80 | ||
#111 | Helio P30 | Gionee M7 | 80 | ||
#112 | Helio G25 | Redmi 9A | 80 | 91545 | 136 / 475 |
#113 | Helio X23 | Lenovo K8 Note | 79 | ||
#114 | Helio P23 | OPPO F5 | 79 | 103387 | 155 / 863 |
#115 | Helio A25 | Infinix Smart 4 Plus | 78 | ||
#116 | Helio X25 | Meizu Pro 6 | 77 | ||
#117 | Exynos 7880 | Samsung Galaxy A7 (2017) | 77 | 105488 | 147 / 914 |
#118 | Helio X20 | Sharp Z2 | 75 | 92171 | 267 / 810 |
#119 | Helio P25 | Gionee A1 Plus | 75 | ||
#120 | Snapdragon 653 | Samsung Galaxy C9 Pro | 74 | ||
#121 | Helio P20 | Sony Xperia XA1 | 74 | ||
#122 | Apple A8 | iPhone 6 Plus | 74 | ||
#123 | Snapdragon 626 | Motorola Moto Z2 Play | 72 | ||
#124 | Snapdragon 625 | Xiaomi Mi A1 | 71 | 102726 | 171 / 1032 |
#125 | Kirin 659 | Huawei Honor 7X | 71 | ||
#126 | Kirin 658 | Huawei P10 Lite | 71 | ||
#127 | Snapdragon 650 | Redmi Note 3 Pro | 70 | ||
#128 | Kirin 655 | Huawei Honor 6X | 70 | 67163 | 174 / 848 |
#129 | Kirin 650 | Huawei Honor 5C | 70 | 64802 | 171 / 801 |
#130 | Snapdragon 439 | Vivo Y93 | 69 | 98280 | 180 / 807 |
#131 | Helio P22 | Xiaomi Redmi 6 | 69 | 97816 | 156 / 746 |
#132 | Snapdragon 652 | Samsung Galaxy A9 Pro | 69 | 98055 | 259 / 990 |
#133 | Snapdragon 450 | Motorola Moto G6 | 69 | 88693 | 152 / 971 |
#134 | Snapdragon 808 | Nexus 5X | 68 | ||
#135 | Exynos 7870 | Samsung Galaxy J7 (2017) | 67 | 85815 | 129 / 495 |
#136 | Helio A22 | Xiaomi Redmi 6A | 66 | 80803 | 162 / 545 |
#137 | Kirin 935 | Huawei Honor 7 | 66 | ||
#138 | Kirin 930 | Huawei P8 | 65 | ||
#139 | Apple A7 | iPhone 5s | 65 | ||
#140 | Snapdragon 429 | Nokia 3.2 | 65 | 83585 | 171 / 547 |
#141 | Helio A20 | Ulefone Armor X7 | 63 | ||
#142 | Exynos 5433 | Samsung Galaxy Note 4 | 61 | ||
#143 | Helio P18 | Nokia 5.1 | 61 | ||
#144 | Helio P10 | ZTE Nubia N1 | 59 | ||
#145 | Snapdragon 435 | Moto E5 Plus | 59 | 73451 | 126 / 580 |
#146 | Helio X10 | HTC One E9 | 59 | ||
#147 | Exynos 7580 | Samsung Galaxy A7 (2016) | 58 | ||
#148 | Snapdragon 430 | Xiaomi Redmi 3s | 57 | ||
#149 | Snapdragon 617 | Motorola Moto G4 Plus | 55 | ||
#150 | Exynos 7570 | Samsung Galaxy J5 Prime | 53 | 56994 | 109 / 366 |
#151 | Snapdragon 616 | Huawei Honor 7i | 52 | ||
#152 | Snapdragon 615 | Lenovo Vibe P1 | 51 | ||
#153 | MT6750T | Oppo F3 | 51 | ||
#154 | Snapdragon 427 | Moto G6 Play | 50 | ||
#155 | MT6739 | HTC Desire 12 | 50 | 49240 | 104 / 348 |
#156 | Snapdragon 425 | Nokia 2.1 | 49 | ||
#157 | MT6738 | Alcatel A30 Fierce | 49 | ||
#158 | MT6753 | Lenovo K4 Note | 49 | ||
#159 | MT6752 | Lenovo K3 Note | 48 | ||
#160 | MT6750 | Oppo F1s | 48 | ||
#161 | Qualcomm 215 | LG K22 | 48 | ||
#162 | Snapdragon 415 | Lenovo Vibe K5 | 47 | ||
#163 | Kirin 620 | Huawei P8 Lite | 47 | ||
#164 | Snapdragon 412 | BQ Aquaris X5 | 46 | ||
#165 | MT6737T | Samsung Galaxy J2 Prime | 46 | ||
#166 | Snapdragon 410 | Xiaomi Redmi 2 | 45 | ||
#167 | MT6737 | Moto E4 Plus | 45 | 41789 | 130 / 439 |
#168 | MT6735 | Meizu M2 | 42 | ||
#169 | MT6732 | Acer Liquid Jade Z | 41 |
Understanding Data: This list of mobile processors will give you a clear picture of the SoC in your smartphone or the one you’re going to buy next. Once you know what the Best Processor for Mobile Phone Ranking List is, it will be easy to choose a smartphone brand, like Apple, Samsung, OnePlus, Huawei, or Xiaomi.
The best way to figure out which processor is best for mobile data is to look at the SoC with the highest score. TechCenturion, on the other hand, has its own metric to look at the data.
A score of less than 55: If the processor’s score is less than 55, you shouldn’t use or buy a smartphone with that chipset.
55–70 Points: This is a good score for an SoC. Smartphones with these processors will sometimes lag and might not work as smoothly as they could.
Scores of 70 to 100 mean that the processor is a good SoC. They can do well with day-to-day tasks and will be great at gaming every now and then. But the older processor might have problems with getting too hot and slowing down. This could be thought of as a bad user experience.
100–125: Best in the category as a whole. Anyone who likes gadgets should have at least one smartphone with one of these chipsets. These SoCs have great performance and can handle heavy workloads while doing many things at once.
How to understand AnTuTu Benchmark?
AnTuTu gives your SoC a score based on several factors. Their own algorithm tests your system chip and gives you a score for the whole thing. So, it stands to reason that the performance is better when the score is higher. For example, a processor with 4,000,00 scores will run twice as fast as an SoC with 2,000,00 scores. AnTuTu has not said that their scores are based on a standard.
How to understand Geekbench Benchmark?
Scores on Geekbench are based on a number of different matrices. Geekbench says that each score is calculated by having the SoC do a number of different calculations. Most studies of the real world are based on things like Crypto workloads, floating-point, API analysis, etc. In a nutshell, the score shows how well the mobile processor works. The higher the score, the better the performance.
What is the best mobile processor for games?
The most important thing to take away from this is that if your main smartphone uses are gaming, editing videos, and doing a lot of tasks at once, you should get the best chipsets.
Verdict
Every mobile processor is a different system-on-a-chip (SoC), and their performance will always be different from one another. So, Best Processor for Mobile Phone Ranking List, the smartest way to choose a smartphone with the best chipset is to first understand how to use the device. Our list of the best processors for mobile phones has everything you need, whether you just want to take great photos or play games, or if you’re a hybrid user who likes everything about their phone.
FAQs
What is the best mobile processor?
In the market for android phones, Qualcomm Technologies Inc.’s Snapdragon 888 is the best processor or system on a chip.
What is the best chipset?
The best processors for Android phones are the Qualcomm Snapdragon 888, the Density 1000+, and the Huawei Kirin 9000. Even though the Snapdragon 888 has better scores than the Kirin 9000, the AI performance of the Kirin 9000 is better.
Which Snapdragon chip is the fastest?
The Qualcomm Snapdragon 865 5G Mobile Platform has a Qualcomm Secure Processing Unit that can run high-security applications that could only be done before by external security chips. This saves OEMs money on their bill of materials.